28

sorted([2, float('nan'), 1]) returns [2, nan, 1]

(At least on Activestate Python 3.1 implementation.)

I understand nan is a weird object, so I wouldn't be surprised if it shows up in random places in the sort result. But it also messes up the sort for the non-nan numbers in the container, which is really unexpected.

I asked a related question about max, and based on that I understand why sort works like this. But should this be considered a bug?

Documentation just says "Return a new sorted list [...]" without specifying any details.

EDIT: I now agree that this isn't in violation of the IEEE standard. However, it's a bug from any common sense viewpoint, I think. Even Microsoft, which isn't known to admit their mistakes often, has recognized this one as a bug, and fixed it in the latest version: http://connect.microsoft.com/VisualStudio/feedback/details/363379/bug-in-list-double-sort-in-list-which-contains-double-nan.

Anyway, I ended up following @khachik's answer:

sorted(list_, key = lambda x : float('-inf') if math.isnan(x) else x)

I suspect it results in a performance hit compared to the language doing that by default, but at least it works (barring any bugs that I introduced).

  • Not a Number(NAN) is invalid input for numerical sort, or anything expecting numbers; so I wouldn't consider it a bug. – frayser Nov 21 '10 at 20:11
  • @Frayser: that's not quite correct. Is it invalid in Python? No because Python doesn't raise exceptions. Is it invalid in IEEE754? No because it provides for very specific behavior (for quiet nan at least). Is it invalid in some other standard? – max Nov 21 '10 at 20:18
  • 1
    While it's understandable that "nan" will end up randomly somewhere in the resulting list, what's harder to understand is that it apparently is correct behavior to incorrectly order the numerical values still in the last: sorted([1.0, 2.0, 3.0, float('nan'), 4.0, 3.0, 2.0, 1.0]) => [1.0, 2.0, 3.0, nan, 1.0, 2.0, 3.0, 4.0]. See bugs.python.org/issue12286. – Noah May 6 '12 at 18:27
12

The previous answers are useful, but perhaps not clear regarding the root of the problem.

In any language, sort applies a given ordering, defined by a comparison function or in some other way, over the domain of the input values. For example, less-than, a.k.a. operator <, could be used throughout if and only if less than defines a suitable ordering over the input values.

But this is specifically NOT true for floating point values and less-than: "NaN is unordered: it is not equal to, greater than, or less than anything, including itself." (Clear prose from GNU C manual, but applies to all modern IEEE754 based floating point)

So the possible solutions are:

  1. remove the NaNs first, making the input domain well defined via < (or the other sorting function being used)
  2. define a custom comparison function (a.k.a. predicate) that does define an ordering for NaN, such as less than any number, or greater than any number.

Either approach can be used, in any language.

Practically, considering python, I would prefer to remove the NaNs if you either don't care much about fastest performance or if removing NaNs is a desired behavior in context.

Otherwise you could use a suitable predicate function via "cmp" in older python versions, or via this and functools.cmp_to_key(). The latter is a bit more awkward, naturally, than removing the NaNs first. And care will be required to avoid worse performance, when defining this predicate function.

  • IEEE 754 requires that max(NaN, 1) returns 1. It would be nice if Python followed the standard, but it doesn't. If it follows its own rules, it could at least have some reasonable rules, rather than random unstable behavior. – max Aug 23 '11 at 19:19
  • To clarify, I do agree with you that float('nan') < 1 or float('nan') >= 1 should return False. It appears that an exception has been made in the newest IEEE standard (IEEE 754 = IEEE 754-2008) for functions minimum and maximum (which must return the number) but not for sort or regular comparison. – max Dec 15 '11 at 17:47
7

The problem is that there's no correct order if the list contains a NAN, since a sequence a1, a2, a3, ..., an is sorted if a1 <= a2 <= a3 <= ... <= an. If any of these a values is a NAN then the sorted property breaks, since for all a, a <= NAN and NAN <= a are both false.

5

I'm not sure about the bug, but the workaround may be the following:

sorted(
    (2, 1, float('nan')),
    lambda x,y: x is float('nan') and -1 
                or (y is float('nan') and 1
                or cmp(x,y)))

which results in:

('nan', 1, 2)

Or remove nans before sorting or anything else.

  • 1
    I'll rewrite this for Python 3, and handle cases where nan is numpy.nan. – max Dec 15 '11 at 17:23
3

IEEE754 is the standard that defines floating point operations in this instance. This standard defines the compare operation of operands, at least one of which is a NaN, to be an error. Hence, this is not a bug. You need to deal with the NaNs before operating on your array.

  • 4
    -1 Python doesn't follow IEEE754, which requires that there are two NaNs: signalling and non-signalling, and two comparison operators: signalling and non-signalling. Furthermore, IEEE754-2008 specifically requires that max return the number when compared to nan. – max Nov 21 '10 at 20:12
  • If it is a signaling NaN (sNaN) then an exception will be raised by the hardware. For a quiet NaN (qNaN) the hardware won't raise an exception and it would be far too burdonsome to expect every library routine that dealt with floating point values to check for qNaNs. – David Heffernan Nov 21 '10 at 20:16
  • If you are running CPython on a machine whose FP hardware is based on IEEE754 then that's what you will get. Also, in what sense does IEEE754 define max? – David Heffernan Nov 21 '10 at 20:21
  • 1
    The Python documentation has this to say about IEEE754: "Almost all machines today (July 2010) use IEEE-754 floating point arithmetic, and almost all platforms map Python floats to IEEE-754 “double precision”." Also, thanks a lot for the down votes. Just because you don't like the answer doesn't mean you should shoot the messenger!! ;-) – David Heffernan Nov 21 '10 at 20:39
  • 3
    @max we can argue all we like, but it is what it is and you'll just have to pre-process the array and check for the NaNs - if you don't like how it's done then you'll have to take it up with Guido!!! – David Heffernan Nov 21 '10 at 20:43
0

Assuming you want to keep the NaNs and order them as the lowest "values", here is a workaround working both with non-unique nan, unique numpy nan, numerical and non numerical objects:

def is_nan(x):
    return (x is np.nan or x != x)

list_ = [2, float('nan'), 'z', 1, 'a', np.nan, 4, float('nan')]
sorted(list_, key = lambda x : float('-inf') if is_nan(x) else x)
# [nan, nan, nan, 1, 2, 4, 'a', 'z']

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.